DESIGN AND IMPLEMENTATION OF WIRELESS NETWORK BASED WIRELESS SCADA



This research project material is available: DESIGN AND IMPLEMENTATION OF WIRELESS NETWORK BASED WIRELESS SCADA



Download Complete Research Project Material on DESIGN AND IMPLEMENTATION OF WIRELESS NETWORK BASED WIRELESS SCADA



Project Category:
Type: Project Materials| Format: Ms Word| Attribute: Documentation Only| Pages: 57 Pages| Chapters: 1-5 chapters | Price: ₦ 3,000.00



Call or whatsapp: +2347063298784 or email: [email protected]

Download Chapter One (DOC | DOCX)

Download Chapter One (PDF)



Download complete Chapters



DESIGN AND IMPLEMENTATION OF WIRELESS NETWORK BASED WIRELESS SCADA



CHAPTER ONE

 

 

 

 

1.0    BACKGROUND:

 

Wireless network based wireless SCADAs have significantly influenced the world, since their initial deployment. Wireless network based wireless SCADAs have continued to develop and their uses have significantly grown. Cellular phones are nowadays part of huge wireless network based wireless SCADA systems and people use mobile phones on a daily basis in order to communicate with each other and exchange information. Recently, wireless network based wireless SCADAs have been used for positioning as well, in order to enable the provision of location oriented services to the end-user. Different types of measurements available during standard network and terminal operation, mainly for resource management and synchronization purposes, can be employed to derive the user’s location. With these numerous uses of wireless network based wireless SCADA, this project will focus on resources sharing dedicated network. A professor at the University of Hawaii, Norman Abramson developed the world’s first wireless computer communication network, ALOHAnet (operational in 1971), using low-cost ham-like radios. The system included seven computers deployed over four isSCADA ds to communicate with the central computer on the Oahu IsSCADA d without using phone lines. SCADA  hardware initially cost so much

1.2          MOTIVATION

 

There is existing SCADA connection but there are some features its lacking which inspired me to implement this project. There is no share


3


printer/resource; no dedicated network irregularities etc., upon completion of this project, all of these drawbacks would be taken care of.

 

1.3     AIMS AND OBJECTIVES

 

The aim of this project is to design a dedicated wireless network based wireless SCADA for Mathematics department UNIVERSITY OF UYO, for file and printer sharing over the network. To achieve this, there are steps to take, which are: installation of wireless router, setup the router and preference, installation of printer and integrate the printer to the wireless router.

1.4           PURPOSE OF THE STUDY

 

·        To save cost of buying printer machine for each workstation.

 

·        Mobility and flexibility, which is any eligible staff moves around with his /her laptop, can still print file within the coverage area.

 

1.5          SIGNIFICANT OF STUDY

 

The important of this project are many but few will be mentioned. Firstly, let consider that in department of Mathematics department every workstation required printer machine which will cost the school huge among of money, cost of maintenance and occupy more space. But, by the time this project will be implement a printer machine can be share


 

 

 

4


over a dedicated wireless network based wireless SCADA for department of school of Science and Technology.

 

 

 

1.6             TERMINOLOGIES

 

 

 

 

 

1.6.0          ROUTER:

 

It is a specialized network device that determines the next network point to which to forward a data packet toward its destination.

1.6.1           Internet Protocol Address (IP ADDRESS):

 

It is a numerical label assigned to each device (e.g., computer, printer) participating in a computer network that uses the Internet Protocol for communication. An IP address serves two principal functions: host or network interface identification and location addressing. Its role has been characterized as follows: "A name indicates what we seek. An address indicates where it is. A route indicates how to get there.

 

1.6.2           PROTOCOL:

 

It is a set rule governing how to communicate over a network.

 

1.6.3             DUALBAND:

 

It is a communication device (especially a mobile phone) that supports two radio frequency bands.


 

5


1.6.4              RADIO MODEMS:

 

These are radio transceivers for serial data communications. They connect to serial ports RS232, RS422/485 and transmit to and receive signals from other matching radio (point to point) or radios (multi drop) network. Wireless Radio Modems are designed to be transparent to the systems they operate within.

 

1.6.5              NETWORK SWITCH:

 

This is a computer networking device that connects devices together on a computer network, by using a form of packet switching to forward data to the destination device. A network switch is considered more advanced than a (repeater) hub because a switch will only forward a message to one or multiple devices that need to receive it, rather than broadcasting the same message out of each of its ports.

 

1.6.6             HUB

 

It is a device for connecting multiple Ethernet devices together and making them act as a single network segment. It has multiple input/output (I/O) ports, in which a signal introduced at the input of any port appears at the output of every port except the original incoming.


 

 

 

 

 

6


1.6.7              NETWORK BRIDGE:

 

It is a network device that connects multiple network segments. In the OSI model bridging acts in the first two layers, below the network layer. There are four types of network-bridging technologies: simple bridging; multiport bridging; learning, or transparent bridging; and source route bridging.

 

1.6.8             NETWORK ANTENNA:

 

It is an electrical device which converts electric currents into radio waves, and vice versa. It is usually used with a radio transmitter or radio receiver. In transmission, a radio transmitter supplies an electric current oscillating at radio frequency (i.e. high frequency AC) to the antenna''s terminals, and the antenna radiates the energy from the current as electromagnetic waves (radio waves). In reception, an antenna intercepts some of the power of an electromagnetic wave in order to produce a tiny voltage at its terminals that is applied to a receiver to be amplified. An antenna can be used for both transmitting and receiving.

 

 

 

1.6.9           IEEE (Institute of Electrical and Electronics Engineers):

 

This is a professional association with its corporate office in New York City and its operations center in Piscataway, New Jersey. It was formed in


 

7


1963 from the amalgamation of the American Institute of Electrical Engineers and the Institute of Radio Engineers. Today it is the world''s largest association of technical professionals with more than 400,000 members in chapters around the world. The standard upheld for the design of the project was constituted by the professional body called the IEEE standard.

Citation - Reference

All Project Materials Inc. (2020). DESIGN AND IMPLEMENTATION OF WIRELESS NETWORK BASED WIRELESS SCADA. Available at: https://researchcub.info/department/paper-8463.html. [Accessed: ].

DESIGN AND IMPLEMENTATION OF WIRELESS NETWORK BASED WIRELESS SCADA


Download Complete Project Material

Call: +2347063298784

Hire a Writer
Search Word Tags: